New stem cell technique may aid medical treatments

By MALCOLM RITTER AP Science Writer

Posted:
01/29/2014 07:56:12 AM CST

Updated:
01/29/2014 09:39:24 AM CST

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This undated image made available by the journal Nature shows a mouse embryo formed with specially-treated cells from a newborn mouse that had been transformed into stem cells. Researchers in Boston and Japan say they created stem cells from various tissues of newborn mice. If the same technique works for humans, it may provide a new way to grow tissue for treating illnesses like diabetes and Parkinson's disease. The report was published online on Wednesday, Jan. 29, 2014 in the journal Nature.

NEW YORK—A simple lab treatment can turn ordinary cells from mice into stem cells, according to a surprising study that hints at a possible new way to grow tissue for treating illnesses like diabetes and Parkinson's disease.

Researchers in Boston and Japan exposed cells from spleens of newborn mice to a more acidic environment that they're used to. In lab tests, that turned them into stem cells, showing enough versatility to produce the tissues of a mouse embryo, for example.

Cells from skin, muscle, fat and other tissue of newborn mice appeared to go through the same change, which could be triggered by exposing cells to any of a variety of stressful situations, researchers said.

Scientists hope to harness stem cells to replace defective tissue in a wide variety of diseases. By making stem cells from the patient, they can get around the problem of transplant rejection.

Human cells are now routinely turned into so-called "iPS" stem cells. That involves reprogramming an ordinary cell by slipping genes or substances into its nucleus. The new method, in contrast, lets the cell change its own behavior after researchers have applied an external stress.

"It's very simple to do. I think you could do this actually in a college lab," said Dr. Charles Vacanti of Brigham and Women's Hospital in Boston, an author of two papers published online Wednesday by the journal Nature.

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Vacanti also acknowledged that if the technique works with human cells, it could conceivably provide a new potential route for cloning people. He has no interest in doing that, he said, but "it is a concern."

Another author, Haruko Obokata of the RIKEN Center for Developmental Biology in Kobe, Japan, said researchers are now studying whether the technique works with human cells. She also said it's premature to compare it to iPS technology in terms of potential medical uses.

Experts not connected to the study said the results are surprising, and that it's too soon to know their practical implications.

"Until you show it works in humans, it's hard to know what the application is going to be," said William Lowry, a developmental biologist at the University of California, Los Angeles. "For now, the question of whether it's a lab curiosity or a big medical benefit, that's still up in the air."